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Using Sugars™ for mill optimization projects
Fikadu M Beyene
• Presented at the annual ASSCT meeting - Louisiana division
• Lafayette LA , February 9, 2011
Objectives
1. Present modeling of a sugar cane factory utilizing Sugars™ based on LASUCA sugar mill.
2. Discuss factory modification to reduce steam usage.
3. Compare the different boiling schemes for improvement of raw sugar color.
Sugars™ is 2 programs
1. MS Visio for the graphical interface. 2. Sugars for calculations.
Visio communicates with Sugars using ActiveX Technology.
Other Software Programs
• ASPEN • CHEMCAD • HYSIM • HYSYS • PROISM • SUPERPRO DESIGNER®(1) • All these program are capable of material and
energy balances, but they are not specific for sugar mills and refineries.
Sugars™ for Windows®(4)
is used to model sugar factories and
refineries.
has successfully modeled thousands of sugar processes since it was introduced in 1986.
is a reliable program that is used by sugar companies and engineering firms to improve existing factories, or to design new ones.
is the most widely used program in the world for modeling and simulating sugar processes.
1. Daily manufacturing and quality report.
2. All turbine steam rates & installed hp.
3. Equipment performance data, heaters, evaporators, etc.
4. boilers, pans, and injection water pumps data, thermal parameters, pressures, temperatures and vacuum and types of equipment or unit operations.
What Information Do You Need?
clarifier
Example LASUCA Sugar Mill
• Crop year 2009/2010 Base Model
“No Excess Bagasse @ 10,500TCD “
Causes:
1. Syrup Brix was 59 – 61.
2. Pan steam demand was high.
3. Unsteady crushing for different causes.
4. Inconsistent bagasse feeding to boilers.
5. Low boiler efficiencies.
6. Mother nature.
B/C, brought bagasse from another mill.
Questions
• Most of the time we considered the boiler couldn’t generate enough steam to the process or looks like shortage of capacity if we ground extra X amount of cane or changing the boiling scheme. The problem is overlooked other causes like:
• Why the boiler forced to generate extra steam? Is it the process balanced?
• How do we use the steam or vapors?
• What is the syrup brix? What are the causes for frequent down time?
• How do we control imbibition, molasses conditioning & mud filters water?
• How do we feed the bagasse to boilers?
• How do we control/or reduce the flue gas temperature?
• What is the bagasse/steam quality?
• For these reasons, simulation results from Sugars™ can be used as a guide to compare against the actual performance of the factory. In addition, it is used to train process engineers, design new factories, evaluate the feasibility of R&D projects, reconcile process data and provide information about the process that cannot be measured.
COMPARISON B/N 2009 & 2010 CROP RESULTS BASED ON SUGARS™ ON LASUCA MILL
TCD 10500 @ 60 BRIX
2009 /2010 CROP year BOILER EFF≈ 52%
TCD 10500 @ 65 BRIX
2010 crop year BOILER EFF≈ 55%
Injection water temp. 105 :F 100 :F Exhaust usage at Pan Station
A,B, C & Grain Pans C & Grain Pans
V1 Usage 50% A Pans only All A & B Pans V2 Usage N/A N/A Lb/hr HP STEAM 464,796 441,704 Required Make-up to Exhaust steam , Lb/hr
62,000 45,500
Excess Bagasse, Lb/hr 0 23,092
Lasuca Crop Year 2010
• The base model is changed. Most of the problem areas are addressed and the plant became more efficient and produced more excess bagasse as a result of less steam demand. Also, sugar Pol increased with low color due to good quality cane.
• The excess bagasse created a different ( storage or disposal) problem but it is more than offset by a better balanced factory.
• NB: The “Base Model” is interchangeable.
Raw Sugar Color Improvement Methods Using Sugar™
Types of Boiling Scheme Over 8O Syrup Purity
1. Conventional Three Boiling Scheme.
2. Double Magma with Three Boiling.
3. Modified Double Magma with:
• 4 Boiling.
• All “B“ magma to remelt.
• All “C“ magma to remelt.
4. Double curing (purging) at “ C “ sugar.
Comparison Based On Sugars™ With 15,000CU ph 7 cane juice & 10500 TCD BOILING
System 85 Syrup
Purity
SteamOn
cane Ratio%
A & B MAS.
Volume LB/HR
“C”
MAS .
Vol. LB/HR
COLOR
@ 7 PH
COLOR
@ 8.5
PH
SUGAR
%POL SUGAR LB/hr
F.M True PTY
F.M Apt PTY ≈
F.M Lb/hr
Three
boiling 49.3 196,384 55380 1459 2918 98.8 90400 41.3 33.3 35718
Double
Magma 50.9 270,425 57855 503 1006 99.3 89749 42.8 34.8 36518
Double
Purging @ C sugar
49.4 189,761 57031 716 1431 99.2 89848 42.7 34.7 33149
Comparison On Boiling Schemes(3)
BOILING SYSTEM ADVANTAGES DISADVANTAGES
THREE BOILING Double Magma Double Purging At “ C “ Magma
1. Handling high syrup purities without back boiling.
2. Relatively less steam demands. 1. Uniform sugar quality. 2. Higher sugar pol and less color 3. B strikes easier to boil due to
high crystal content. 4. Less time for boiling due to
high purity material. 1. High sugar pol and lower color. 2. Less pan capacity & more
energy efficient. 3. Slightly less molasses
production due to less water usage at fore workers machine.
1. Not uniform sugar quality. 2. It is conditional. 1. Requires high pan & centrifugal
capacity plus relatively high steam demands. (Due to 30 – 35% more massecuite volume).
2. Cannot handle high syrup purities without back boiling.
1. Not uniform sugar quality. 2. Can not handle high syrup
purities without back boiling. 3. It requires maximum attention
on magma and wash purities to get lower sugar color & final molasses purities.(i.e., 93 Purity magma & “C” wash around B molasses purity).
Conclusions
• The Sugars™ program is a valuable tool for operating and planning decisions.
• Both Double magma and Double purge at “ C “ magma schemes can provide improved quality raw sugar. The final selection depends on the plant set up, available equipment and management strategies.
• We will be happy to work with interested parties to compare various scenarios .
Acknowledgements • Mr. Mike Comb, general manager, and LASUCA
management team, for their encouragement and permission to use the factory name as model example.
• Dr. Vadim Kochergin for his great support since I started this project and for his recommendations throughout the development .
• Mr. Warner Weiss, Manager of Sugars International LLC for his full support and guidance to help with understanding the software.
• Mr. Mark Suhr from MS processes Intl for training.
References
1. Dr. Michael Saska, “ Modeling boiling house operation with superpro designer®” from Sugar Journal, December 2008 & February 2009, p. 22.
2. M. Saska, B.S. Zossi and H. Liu, “Removal of color in sugar cane juice clarification by defecation, sulfitation and carbonation” 2009.
3. Dr. Harold S. Birkett, “A comparison of raw sugar boiling schemes”, ASSCT June 22- 23, 1978.
4. Sugars International LLC web site: http://www.sugarsonline.com
5. A. Van Hengel,C.G .Smith Sugar Limited, ”Modified Boiling system for better sugar quality”, SASTA, June 1983.
6. L. Warner Weiss, ”Cane factory process Modeling using Sugars™ for Windows®”, June 16-18, ASSCT 1999.
THANK YOU